Nonrandom association of polymorphic restriction sites in the beta-globin gene cluster

c-Ha-ras-1 oncogene lies between beta-globin and insulin loci on human chromosome 11p

DNA sequence polymorphisms have been used to determine the linear order and recombinational distances separating the Harvey ras 1 oncogene (c-Ha-ras-1), beta-globin, insulin, and parathyroid hormone genes on the short arm of human chromosome 11. Our results indicate that c-Ha-ras-1 is closely linked to both the beta-globin locus (theta = .08 [8 centimorgans], lod score = 5.11) and the insulin locus (theta = .04 [4 centimorgans], lod score = 3.31). Furthermore, the probable order of these loci on chromosome 11p is centromere-parathyroid hormone-beta globin-c-Ha-ras-1-insulin.

DNA restriction fragment length polymorphisms and heterozygosity in the human genome

A list is presented of published reports of DNA polymorphisms found in the human genome by restriction enzyme analysis. While the list indicates the large number of restriction fragment length polymorphisms (RFLPs) detected to date, the information collated is insufficient to permit an estimate of heterozygosity for the genome as a whole. Data from our laboratory are therefore also presented on RFLPs detected using a random sample of cloned DNA segments. Such an analysis has permitted a first unbiassed estimate of heterozygosity for the human genome. Since this figure is an order of magnitude higher than previous estimates derived from protein data, the majority of polymorphic variation present in the human genome must, by implication, occur in noncoding sequences. In addition it was confirmed that enzymes containing the dinucleotide CpG in their recognition sequences detect more polymorphic variation than those that do not contain a CpG. Also presented are the clinical applications of DNA polymorphisms in the diagnosis of human genetic disease.

Evidence for the multicentric origin of the sickle cell hemoglobin gene in Africa

Previous studies of the Hpa I cleavage site-sickle cell hemoglobin gene linkage in various African populations suggested that the sickle gene arose independently more than once. In the present study we have performed restriction endonuclease haplotype analysis for the beta-globin-like gene cluster from four separate geographic areas in Africa, all of which possess the sickle gene. In Benin (Central West Africa) and Algeria (Arab North Africa) all chromosomes carrying the sickle gene possess an identical haplotype as defined by 11 different polymorphic restriction endonuclease sites within the 60-kilobase region of the beta-globin-like gene cluster. In the Central African Republic (Bantu-speaking Africa) and in Senegal (Atlantic West Africa) a very large proportion of the sickle gene chromosomes were associated with a haplotype specific for each country. Thus, three different haplotypes are shown to be associated with the sickle gene in Africa, and each is present at a very high frequency in geographically separate regions. Since the three haplotypes differ from each other by at least three sites residing both 5' and 3' to a putative hot spot for recombination, it is most likely that the sickle gene arose at least three times on separate preexisting chromosomal haplotypes. This may have implications for a better understanding of the variable nature of the expression of sickle cell anemia, because clinically relevant sequences (for example, gamma-globin gene regulatory sequences responsive to anemia) might be linked polymorphically to these haplotypes.

Origin of the beta S-globin gene in blacks: the contribution of recurrent mutation or gene conversion or both

In order to investigate the origin(s) of the mutation(s) leading to the beta S-globin gene in North American populations of African ancestry, we analyzed DNA polymorphisms in the beta-globin gene cluster in a large number of both beta A- and beta S-globin gene-bearing chromosomes in U.S. and Jamaican Blacks. We found 16 different haplotypes of polymorphic sites associated with 170 beta S-globin gene-bearing chromosomes. The three most common beta S haplotypes, which account for 151/170 of the beta S-globin gene-bearing chromosomes, are only rarely seen in the chromosomes bearing the beta A-globin gene in these populations (6/47). Two observations suggest multiple origins or interallelic gene conversion, or both, of the beta S mutation. First, the mutation is present in all three beta-globin gene frameworks. Second, the beta S haplotypes can be divided into four groups, each of which cannot be derived from any other by less than two crossing-over events. In summary, our observation of the beta S mutation on 16 different haplotypes in African populations can be best explained by (i) a number of simple recombination events 5' to the beta-globin gene and (ii) up to four independent mutations and/or interallelic gene conversions.

Chromosome 13 restriction fragment length polymorphisms

The gene locus for hereditary retinoblastoma is on human chromosome 13, band q14. With this gene localization in mind, we cloned DNA fragments from this chromosome. Three of the fragments identify restriction fragment length polymorphisms. These three fragments are from the region 13q12-13q22, the chromosome region which contains the retinoblastoma locus. We expect that these restriction fragment length polymorphisms will be linked to the retinoblastoma locus, and that they will serve in certain retinoblastoma families as predictors of retinoblastoma gene carriers. They will also be useful in studies of other gene loci thought to be on chromosome 13.

beta-Thalassemia in American Blacks: novel mutations in the "TATA" box and an acceptor splice site

beta-Thalassemia genes, although often mild in their effects, are common among American Blacks. We have begun a systematic molecular analysis of beta-thalassemia mutations in this group. DNA polymorphisms in the beta-globin gene cluster were examined among 22 beta-thalassemia chromosomes. Six different haplotypes were observed. beta-globin genes of two of these were cloned, and their phenotypes were examined both in heterologous cells upon transient expression and in vivo. The gene found in the most common haplotype (9 of 22 chromosomes) contained a single base substitution (A----G) at position -29 within the highly conserved proximal promoter element (the "TATA" box). This mutant gene directed beta-globin RNA at 25% of normal levels both in heterologous cells and in vivo. It was associated with a mild beta +-thalassemia phenotype. A different gene, isolated from an apparently rare haplotype (1 of 22 chromosomes), had a single base substitution (A----G) within the acceptor splice site of the second intervening sequence. This mutation abolished normal RNA splicing so that the only RNA made from the gene in vitro was an alternatively spliced RNA, which could not encode beta-globin. The mild deficit in beta-globin production attributable to the -29 A----G mutant allele most likely accounts for the frequently mild nature of beta-thalassemia among American Blacks.

Molecular heterogeneity of beta thalassaemia in the Italian population

Fifty-one subjects originating from Southern Italy and affected by Cooley's anaemia have been studied in order to define the degree of heterogeneity of beta thalassaemia mutations in this high incidence area. Restriction endonuclease mapping has been carried out on genomic DNA by the Southern blot technique both to exclude the existence of gross deletions or rearrangements and to establish the relative frequency of four polymorphic restriction sites (i.e. G gamma and A gamma Hind III, beta Ava II and beta Bam HI) within the gamma delta beta gene region. In 28 subjects unequivocal linkage of the four polymorphic sites has been determined leading to the identification of seven different chromosome haplotypes, six of which had previously been reported associated with specific beta(0) and beta(+) thalassaemia mutations. Globin chain synthesis studies on peripheral blood reticulocytes indicated that subjects carrying the same genotype may behave differently as far as the beta chain production is concerned relative to both the alpha and the non-alpha chains. Thus, beta thalassaemia turns out to be quite heterogeneous even in this limited geographical area. Beta(+) mutations appear to be predominant, particularly those affecting nuclear precursor RNA splicing to mature beta globin mRNA.

Hemoglobin E in Europeans: further evidence for multiple origins of the beta E-globin gene

We have determined haplotypes for the known restriction site polymorphisms in the beta-globin gene cluster in two families of European ancestry containing individuals who are heterozygous for hemoglobin E. In both families, the beta E mutation is associated with a haplotype not previously found among the haplotypes of beta E chromosomes in Southeast Asia. Moreover, in one family, the mutation is present in a beta-gene framework not found in beta E chromosomes of Southeast Asia. These data provide further evidence of multiple independent origins of the beta E mutation in human populations.

The occurrence of the alpha G-Philadelphia-globin allele on a double-locus chromosome

Hb G-Philadelphia, an alpha-globin allele, is expressed as either 20%, 30%, or 40% of the total hemoglobin. Restriction analyses published thus far have shown that among persons with 30% and 40% hemoglobin (Hb) G the alpha G allele is seen only in a single-locus haplotype. We now report the identification of a second haplotype in which the alpha G allele is found in tandem with an alpha A allele. This haplotype has been found present in DNA from the members of one family in which Hb G is expressed as 20% of the total hemoglobin, determined by both cellulose acetate electrophoresis and high-performance liquid chromatography (HPLC). Synthesis was balanced in all individuals. The identification of a variant alpha-globin allele in two distinct haplotypes presents the possibility of independent mutation. However, an alternative explanation cannot be ruled out; namely, that the original allele may have become distributed among the two haplotypes by unequal crossing-over.

Developmental pattern of beta-chain production at midtrimester pregnancy in Sardinian beta o-thalassemia heterozygotes

This study shows a minor, statistically non significant increase, of beta-chain synthesis from 18 to 24 weeks gestation in both normal and beta o-thalassemia heterozygous fetuses with no significant changes in the ratio between the values for the two groups as a function of gestational age. This result indicates that at midtrimester pregnancy the developmental pattern of Hb F to Hb A switching in beta o-thalassemia heterozygotes is similar to that of normal fetuses.

Four new haplotypes observed in Algerian beta-thalassemia patients

beta-Thalassemia, a heterogeneous group of human anemias affecting the expression of beta-globin, is caused by a number of molecular defects. Restriction endonuclease mapping of ethnic populations has revealed many polymorphisms within and around the beta-like globin genes, combinations of which are assigned as haplotypes. Several haplotypes appear to be strongly linked with the molecular defects causing thalassemia in Greek and Italian patients (Orkin et al. 1982). We describe here haplotypes from 40 Algerian beta-thalassemic patients and eight normals determined by restriction endonuclease mapping at seven polymorphic sites. Four haplotypes previously unreported were observed in these thalassemic patients; this argues the existence in this population of undescribed beta-thalassemia alleles. The knowledge of the haplotypes in thalassemic families could be used for prenatal diagnosis of homozygote forms.

A beta-thalassemia lesion abolishes the same Mst II site as the sickle mutation

Digestion of DNA from a patient with homozygous beta zero thalassemia from Calabria, Italy with the restriction endonuclease Mst II produced a pattern similar to the one obtained with sickle cell trait DNA in that the Mst II site at the beta 6 position on one chromosome was abolished. We cloned the DNA from this beta-thalassemia chromosome and performed sequence analysis. The deletion of a single nucleotide (A) at the GAG codon of the beta 6 position results in a frame shift and early beta-globin chain termination. This mutation occurs on a chromosome with a haplotype similar to two other Mediterranean beta-thalassemia lesions. The Mst II enzyme is useful for prenatal diagnosis of beta thalassemia in this population.

Restriction fragment length polymorphisms associated with immunoglobulin C gamma genes reveal linkage disequilibrium and genomic organization

We have demonstrated that restriction fragment length polymorphisms (RFLPs) produced by BamHI can be used as markers for constant (C) region heavy chain genes C psi gamma (C gamma pseudogene), C gamma 2, and C gamma 4. These RFLPs were found nonrandomly associated in the population sample studied. Of the eight combinations (haplotypes) of RFLPs theoretically possible, only two accounted for a total of 88% of the 116 chromosomes examined, a value greater than the total of 25% expected from random segregation of alleles. This indicates considerable linkage disequilibrium between C psi gamma, C gamma 2, and C gamma 4. Quantitative assessment of the degree of association between C gamma gene RFLPs, Gm markers, and switch region RFLPs adjacent to C mu and C alpha 1 revealed that C psi gamma is most tightly associated with C gamma 2 (r = 0.81 and 0.95 for the two common haplotypes), suggesting that C psi gamma maps to a position lying between C alpha 1 and C gamma 2. The association analysis used here should have general applicability for studying the genomic organization of other multigene families.

Different 3' end points of deletions causing delta beta-thalassemia and hereditary persistence of fetal hemoglobin: implications for the control of gamma-globin gene expression in man

DNA at the end point of the gene deletion associated with one form of hereditary persistence of fetal hemoglobin (HPFH) was cloned and used as a probe in gene mapping experiments to analyze the extent and approximate 3' end points of various deletions associated with HPFH and delta beta-thalassemia. The deletions in the two known forms of deletion-type HPFH were shown to be considerably more extensive than in the two cases of delta beta-thalassemia studied. The overall extents of the deletions in the two types of HPFH were quite similar in both cases and the 3' end points were located at a minimum distance of approximately equal to 52 and 57 kilobases from the 3' extremity of the beta-globin gene. In contrast, the 3' end points of the deletions in the two forms of delta beta-thalassemia were located approximately equal to 5 and 10 kilobases to the 3' side of the beta-globin gene. The extent of these deletions and the nature of the DNA brought into the vicinity of the gamma-globin genes by the deletions may therefore be a more important influence on the phenotype of the deletions than the specific nature of the DNA sequences that are deleted within the non-alpha-globin gene cluster as a result of the mutations.

Beta-globin locus is linked to the parathyroid hormone (PTH) locus and lies between the insulin and PTH loci in man

Using a parathyroid hormone (PTH) cDNA probe we found a common Pst I polymorphic restriction site 3' to the PTH gene in all ethnic groups examined. Because the PTH, insulin, and beta-globin loci have been localized to the short arm of chromosome 11 (11p) we used DNA polymorphisms adjacent to each of these three loci to determine whether they are genetically linked and to determine their order. We found that the PTH and beta-globin loci are closely linked (estimated recombination fraction, 0.07; 95% confidence limits, 0.05-0.10; lod score, 4.63; odds favoring linkage, 42,000:1). Furthermore, our findings strongly indicate that the beta-globin gene cluster lies between the PTH and insulin loci. Therefore, the gene order on 11p is centromere-PTH-beta-globin-insulin.

Association of two DNA polymorphisms in the alpha-globin gene cluster: implications for genetic analysis

A new polymorphic BgI II restriction endonuclease site in the alpha-globin gene complex has been found in Cypriot, Sardinian, and Greek populations. In all cases, this polymorphism is linked to a particular hypervariable region between the zeta 2 and zeta 1 genes. This suggests that these hypervariable regions are stable and will be useful for genetic analysis.

Molecular genetics of human serum albumin: restriction enzyme fragment length polymorphisms and analbuminemia

By using cDNA probes for the human albumin gene, four restriction enzyme fragment length polymorphisms (RFLPs) were discovered that were transmitted by codominant autosomal inheritance. Among Caucasians, the gene frequencies were 0.04/0.96 for Msp I/5', 0.43/0.57 for Hae III/3', 0.44/0.56 for Hae III/5', and 0.04/0.42/0.54 for Pst I/5'. These common variants provide a marker for chromosome 4 (q11-q13). A calculation of the extent of DNA variation at the albumin locus revealed that 1/95 nucleotide sites was affected by a RFLP, a figure similar to that found in the globin system. Restriction enzyme fragment study of the DNA of a human analbuminemic individual revealed no gross structural rearrangements of the albumin locus. The exact nature of abnormality will require more study.

Hb M Milwaukee: direct detection of the beta-globin gene mutation in three generations of an afflicted family

Chromosomal DNA from three individuals with familial hemoglobin M (Hb M) Milwaukee was studied by restriction endonuclease analysis. The segregation of the mutant beta-globin gene could be followed through three generations by direct Sst I analysis at the gene level. Various restriction endonucleases were used to confirm the positions of Sst I sites in the delta-beta A- and delta-beta Mi-globin gene regions.

DNA restriction mapping identifies the chromosome carrying the mutant Hb Presbyterian beta-globin gene

Restriction endonuclease mapping of cellular DNA has been used to identify chromosomes that carry the mutant Hb Presbyterian beta-globin genes in a family with individuals heterozygous for this disease. The presence of the polymorphic Hind III restriction site in the G gamma-globin gene and its absence in the A gamma-globin gene were shown to be in phase with the Hb Presbyterian mutation yielding a haplotype constellation that is diagnostic for any further affected offspring.

Prenatal diagnosis of beta-thalassemia. Detection of a single nucleotide mutation in DNA

We investigated a method employing synthetic oligonucleotides for the prenatal diagnosis of beta-thalassemia due to a single nucleotide mutation. The beta 0 thalassemia we tested is produced by a nonsense mutation and is commonly found in Sardinia and other parts of the Mediterranean. In this DNA lesion, the glutamine codon CAG at the beta 39 position is mutated to TAG, which results in a stop codon and premature termination of the beta-globin chain. We synthesized two oligonucleotides: one homologous to the normal beta A gene and the other to the beta 0 thalassemia gene at the beta 39 location. The oligonucleotides were labeled with 32P and used as hybridization probes for normal and thalassemic DNA. The beta A probe hybridized only to the normal DNA, and the beta-thalassemia probe only to thalassemic DNA, thus providing a technique for direct demonstration of the mutation. The method is sensitive enough to be applied directly to DNA that is isolated from uncultured cells obtained from only 20 ml of amniotic fluid as early as the 16th gestational week.

Hemolytic disease of the newborn caused by a new deletion of the entire beta-globin cluster

We describe a new type of gamma delta beta-thalassemia in four generations of a family of Scotch-Irish descent. The proposita presented with hemolytic disease of the newborn, which was characterized by a microcytic anemia. Initial restriction endonuclease analysis of the DNA showed no grossly abnormal patterns, but studies of polymorphic restriction sites and gene dosage revealed an extensive deletion that removed all the beta- and beta-like globin genes from the affected chromosome. In situ hybridization of chromosome preparations with radioactive beta-globin gene probes showed that only one 11p homolog contained the beta-globin gene cluster in the affected family members.

ATA box transcription mutation in beta-thalassemia

DNA sequence analysis of a cloned beta-globin gene from a Chinese patient with beta-thalassemia revealed a single nucleotide substitution (A leads to G) within the ATA box homology and 28 base pairs upstream from the cap site. The patient was homozygous for this particular allele based on restriction mapping at nine different polymorphic sites in the beta-globin gene cluster. Upon transient expression in HeLa cells this gene directed the production of 3-5-fold less beta-globin mRNA than the normal beta-gene. In RNA isolated from the patient's erythroid cells beta-RNA was 10-fold less abundant relative to alpha-RNA than normal, indicating close approximation of the heterologous cell expression results and the in vivo state. These findings support the validity of such transient expression assays for analysis of phenotypes associated with naturally occurring mutant genes and establish the functional significance of nucleotide substitutions at position -28 for human beta-globin gene transcription.

Utility and efficiency of linked marker genes for genetic counseling. III. Proportion of informative families under linkage disequilibrium

A marker locus closely linked to a disease locus is often useful for genetic counseling provided that a counselee is heterozygous at both disease and marker loci. Furthermore, the linkage phase of these genes in the counselee must be known. When the linkage between the disease and marker loci is very close, one often finds linkage disequilibrium between the loci. To evaluate the effect of such nonrandom associations on the utility of linked marker genes for genetic counseling, the proportion of informative families is studied for X-linked recessive and autosomal dominant diseases. This proportion is higher for X-linked genes than for autosomal genes, if other factors are the same. In general, codominant markers are more useful than dominant markers. Also, under appropriate conditions, the proportion of informative families is higher when linkage disequilibrium is present. The results obtained in this paper are useful for evaluating the utility of polymorphic restriction endonuclease cleavage sites as markers in genetic counseling.

Beta + thalassemia--Portuguese type: clinical, haematological and molecular studies of a newly defined form of beta thalassaemia

We have characterized 14 patients in 10 families with a mild form of homozygous beta thalassemia which has not been previously well defined. As these patients originate from a small area of northern Portugal we propose to call this beta + thalassaemia--Portuguese type. Clinically, the homozygotes range from asymptomatic to thalassaemia intermedia and they are characterized by low levels of HbF, less than 20%, indicating only a mild deficit in beta globin production. Heterozygotes are indistinguishable from those with the more common types of beta thalassaemia as regards red cell morphology, haemoglobin analysis and globin chain synthesis studies. Globin gene mapping excluded the presence of alpha thalassaemia in these patients and demonstrated no abnormalities in the beta-like globin gene cluster. Restriction enzyme site polymorphisms around the beta gene cluster are identical on both chromosomes in all of the homozygotes, confirming their homogeneity.

Prenatal diagnosis using DNA polymorphisms. Report on 95 pregnancies at risk for sickle-cell disease or beta-thalassemia

DNA polymorphisms are normal inherited variations in DNA that can often be used to document the inheritance of genes that produce disease. In this report we summarize our experience with prenatal diagnosis in 95 pregnancies in which the fetus was at risk for a hemoglobinopathy; the diagnosis was performed with use of DNA polymorphisms located so near the beta-globin gene that they are inherited along with that gene. Of the 95 pregnancies, 57 involved fetuses at risk for sickle-cell anemia, 32 fetuses at risk for beta-thalassemia, and 6 fetuses at risk for other beta-chain hemoglobinopathies. Diagnosis was achieved solely by analysis of DNA polymorphisms in cells recovered by amniocentesis in 82 cases (86 per cent) and was completed by fetoscopy and fetal-blood study in an additional 6 cases (6 per cent). Prenatal diagnosis was proved correct in all 78 cases that have been available for confirmation to date. Our experience demonstrates that DNA polymorphisms can be useful for the prenatal diagnosis of genetic diseases in which the basic defect cannot be directly detected.

"Silent" nucleotide substitution in a beta+-thalassemia globin gene activates splice site in coding sequence RNA

A beta+-thalassemia globin gene was isolated from the genome of a Black individual by molecular cloning. DNA sequence analysis revealed only a single difference between this gene and the normal human beta-globin gene--adenine is substituted for thymine in the third position of codon 24. Codon 24 in both the normal gene (GGT) and the beta+-thalassemia gene (GGA) encodes glycine. The function of this beta+-thalassemia gene was compared to the function of the normal human beta-globin gene in monkey kidney cells by using plasmid expression vectors. The codon 24 substitution activates a 5' splice site that involves the guanine-thymine dinucleotide present in codon 25, 16 nucleotides upstream from the normal exon 1-intron I boundary. The splice, involving the abnormal 5' site in codon 25, is completed with the normal 3' splice site at the end of intron I. This splicing abnormality leads to a 75% decrease in the accumulation of normally processed beta-globin mRNA, thereby causing the beta+-thalassemia phenotype.

Direct detection of the common Mediterranean beta-thalassemia gene with synthetic DNA probes. An alternative approach for prenatal diagnosis

The most common form of beta-thalassemia among Mediterraneans results from a single nucleotide substitution within the first intervening sequence (IVS-1) of the beta-globin gene. This particular mutation is not detectable in uncloned DNA by restriction enzyme analysis. Using synthetic DNA of 19-nucleotides in length corresponding to the normal and mutant IVS-1 sequences as probes, we have developed a direct assay for this gene defect. Under carefully controlled experimental conditions these synthetic probes detect only their homologous sequences in restriction digests of both cloned and uncloned DNA samples. The method is sufficiently sensitive to establish the genotype of individuals with respect to this defect using approximately 20 micrograms total DNA. This assay provides an alternative to fetal blood and DNA linkage analysis for the prenatal diagnosis of this variety of beta-thalassemia, particularly among Greek families where it is especially common.

A new DNA polymorphism in the beta-globin gene cluster can be used for antenatal diagnosis of beta-thalassaemia

Restriction endonuclease analysis of the human beta-globin gene cluster has revealed a new DNA polymorphism at a Pvu II recognition site approximately 3.5 kilobases from the 3' end of the Agamma-globin gene. In patients from the Mediterranean area, the Pvu II polymorphism was associated equally with both normal and beta-thalassaemia chromosomes. In patients of Indian and Pakistani origin the polymorphism was almost exclusively associated with only the normal chromosome. Therefore this site may prove very useful for the antenatal diagnosis of beta-thalassaemia by acting as a genetic marker for the normal chromosome in linkage analysis of family members.

Duplication followed by deletion accounts for the structure of an Indian deletion beta (0)-thalassemia gene

Nucleotide sequence analysis of a cloned deletion beta-globin gene from a patient with beta(0)-thalassemia demonstrates a 619 nucleotide deletion extending from the 3' third of the second intervening sequence through 209 bases of 3' flanking DNA. However, an additional novel heptanucleotide was identified between the deletion endpoints, suggesting a complex etiology for this rearrangement.

Polymorphism of the Hinf I restriction site located 1 Kb 5' to the human beta-globin gene

Mapping of the DNA from 14 Mediterranean subjects indicates a genetic variation in an Hinf I recognition site located 1 kilobase 5' to the beta-globin gene. This Hinf I site was found associated with eight beta-thalassemic genes and 11 normal beta genes, and hence is not specifically linked to beta-thalassemia.

Evidence for multiple origins of the beta E-globin gene in Southeast Asia

To investigate whether recurrent mutation has contributed to the high frequency of the beta E-globin gene in Southeast Asia, we used the haplotypes at three polymorphic restriction sites within and to the 3' side of the beta-globin gene to predict the framework of 23 beta E-globin genes. These haplotypes suggested that beta E-globin genes are present in two different beta-globin gene frameworks. DNA sequence determination of one gene representing each framework demonstrated that the same mutation (GAG leads to AAG at codon 26) was present in both frameworks. Moreover, the frameworks differed at three nucleotide positions known to be polymorphic in Mediterraneans. These polymorphic sites are located 70 nucleotides to the 5' side of the beta E mutation and 382 and 1032 nucleotides to the 3' side of it. The existence of the beta E mutation in these two beta-globin gene frameworks can be explained by (i) recurrent mutation giving rise to beta E-globin, (ii) a double crossing-over event, or (iii) two single crossing-over events. Mathematical analysis suggests that the first alternative, recurrent mutation of G leads to A at the first nucleotide of codon 26, is most likely.

Genetic diseases: diagnosis by restriction endonuclease analysis

We have summarized a number of different genetic disorders which can be diagnosed at the DNA level using restriction endonuclease fragment analysis. A whole spectrum of defects can be recognized: point mutations, deletions, additions, and crossing-over products or hybrid genes. These same restriction endonuclease techniques can enable different genes to be marked by polymorphism patterns. Thus, abnormal genes can be identified even if their exact DNA lesion is unknown or cannot be directly detected. The progress that has been made with the hemoglobinopathies and the experience from this group of single gene disorders should find application to other diseases as soon as specific probes become available.

Linkage analysis of nondeletion hereditary persistence of fetal hemoglobin

Nondeletion forms of hereditary persistence of fetal hemoglobin may result from regulatory disorders of globin gene expression. The defects in two such conditions were localized by demonstrating a tight genetic linkage between the disorders and polymorphic restriction endonuclease sites within the beta-like globin gene complex. In one instance, the defect probably occurred outside the region of DNA between the epsilon- and beta-globin genes.

Methylation and a polymorphic restriction site adjacent to human beta-interferon gene

High-molecular-weight DNA from cultured human fibroblast cells and tissues was analyzed with the restriction endonucleases Msp I and Hpa II for the presence of methylated sites in the sequences flanking the beta-interferon gene. The majority of the DNAs analyzed were methylated in the restriction site (CCGG) for these two enzymes and thus were sensitive to cleavage by Msp I, but resistant to Hpa II. A polymorphic Msp I restriction site was identified approximately 1000 bp upstream from the beta-interferon gene. The results show an association of the beta-interferon gene with Msp I fragments of either 2.7 kb or 4.2 kb, which are inherited as Mendelian alleles. An unusual Msp I site upstream from the beta-interferon gene was present in 22% of the DNA from peripheral leukocytes of healthy individuals, and in 36% of the DNA from leukocytes of individuals with different forms of leukemia. Induction of beta-interferon with poly(rl X rC) did not alter the methylation pattern in the sequences flanking the beta-interferon gene, and the levels of beta-interferon induced in cells by poly(rl X rC) could not be directly related to the presence or absence of a polymorphic Msp I restriction site in the 5'-flanking region.